Analysis of Magneto-Oscillatory Spectra in Cuprous Oxide, with Classical "Quasi-Closed" Unstable Trajectories
スポンサーリンク
概要
- 論文の詳細を見る
A quantum manifestation of classical non-integrability is found and analyzed in solid state spectroscopy. Magneto-oscillatory spectra in cuprous oxide are observed and attributed to classical unstable trajectories of the system of magnetized hydrogen-type atom which has long been a prototype of non-integrable system. Classical trajectories are numerically calculated with various initial conditions, and it is found that quasi-closed trajectories contribute to the spectrum. The resultant trajectories are sorted in three groups according to their recurrence frequencies (quasi-period). The three quasi-periods are shown to be corresponding to the characteristic three peaks of the auto-correlation function of photon absorbed excitomic state. This novel method for assignment using quasi-closed unstable trajectories has implications on complex spectrum remained unclear.
- 2000-04-28
著者
-
Seyama Miho
National Institute For Materials Science Nanomaterials Laboratory
-
Seyama Miho
Department Of Physics Science University Of Tokyo
-
HAMMURA Kiyotaka
The Institute of Physical and Chemical Research (RIKEN)
-
SAKAI Kazuo
School of Law, Meiji University
-
Sakai Kazuo
School Of Law Meiji University
-
SEYAMA Miho
Department of Physics, Science University of Tokyo
関連論文
- Role of DNA Double-strand Break Repair Genes in Cell Proliferation under Low Dose-rate Irradiation Conditions
- Magneto-Optical Absorption Spectra of Cu_2O in an Image Map with Five Structures at Higher Fields up to 25T
- Magneto-Optical Absorption Spectra of Cu_2O in an Image Map with Fine Structures at Higher Fields up to 25T
- Effect of wortmannin on radiation-induced apoptosis
- Sensitization by Wortmannin of Heat- or X-ray Induced Cell Death in Cultured Chinese Hamster V79 Cells
- Increased Expression after X-Irradiation of MUC1 in Cultured Human Colon Carcinoma HT-29 Cells
- A Gel-electrophoretic Analysis for Improved Sensitivity and Specificity of DNA-dependent Protein Kinase Activity
- Manifestation of Classical Non-integrability in Magneto-oscillatory Spectra in Cuprous Oxide(Condensed Matter : Electronic Structure, Electrical, Magnetic and Optical Properties)
- Analysis of Magneto-Oscillatory Spectra in Cuprous Oxide, with Classical "Quasi-Closed" Unstable Trajectories
- INTRACELLULAR DAMAGE OF DNA INDUCED BY TRITIATED WATER AND ITS RESTORATION
- Manifestation of Classical Non-integrability in Magneto-oscillatory Spectra in Cuprous Oxide(Condensed Matter : Electronic Structure, Electrical, Magnetic and Optical Properties)